Singularity, Infinity, Edge, Expansion

In summary: Universe... may not be the only places with this sort of thing.In summary, cosmologists say that the universe started at a singularity and that we cannot see the center because everything is moving away from it. There is a Multiverse and anyone who says the universe is everything and cannot be expanding into anything is wrong.
  • #1
Flustered
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First post in the Physic forum, the thread title are the words that really get on my nerves. I have the following questions.

a) Cosmologists say the universe started at a singularity, there for there is a point where the universe started to expand from, if you could look at the singularity after 1.0 X 10-34 sec after big bang, you could see a point where everything is moving away from, how come now we cannot find this point?

b) Hubbles law says farther galaxies are moving away faster relative to us? Does this mean we are not expanding and that everything else is expanding away form us? See diagram below

A B C D Milky way is galaxy A, after a few billionths of a sec
A ---------->B----------> C-----------> D all the other galaxies have moved away from us, and this is how I was taught the universe is expanding. In this diagram galaxy A has not moved at all, but everything else has moved away. Which leaves me wondering why are we not expanding and if we are and I could put a galaxy X into the diagram so it looks like this, we are only moving away from galaxy X, and even though BCD are expanding away from us we are also expanding in their same direction. This is why 2D models of universal expansion will never make sense to me and I need someone to really help me grasp this
X------------>A---------->B------------>C----------->D

Physcists talk about a Multiverse, few questions, if thee is a multiverse would all these "verses" make on big UNIVERSE? also if there is a multiverse, anyone who says the universe is everything and it cannot be expanding into anything is WRONG! if there are other universes like ours, that would mean there is something outside of our universe that we are expanding into.

Why can't there be an edge to the universe, if the universe is a sphere and is expanding in all directions, like the Earth is a sphere. Than there would have to be an edge, just like on Earth the atmosphere is the edge, where gravity stops and astronauts experience 0 gravity.
 
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  • #2
(a) that is because we are inside the Universe. If we were outside the universe in some meta-space, then we'd be able to see the point.

Anyway - a singularity is just what the best current models tell us: the Universe looks very much like it expanded from a small very dense state and our math has a singularity. There is a general feeling that this singualrity represents a flaw in our math and models like Hartle-Hawking do away with it.

We cannot see the center of the Universe from the inside for the same reason we cannot see a center for the surface of the Earth.

(b) it means that everything is moving away from everything else. Wherever you are in the universe, you will see distant galaxies moving away from you at a speed that depends on their distance from you.

eg. here's a mini-universe at two times, you'll see it is expanding.
the -- represents empty space and the 0,o,x are places in it.
t1: 0---o---x---o---0
t2: 0----o----x----o----0

put the observer on the x to start with: in T=t2-t1, the 0 has moved away from the x by 2 units, while the o has moved 1.
so you see everyting moves away from the x with a speed that depends on the distance?

shift the observer to the o on the right: the right 0 has moved 1 unit one way and the x has moved 1 unit the other way. the left o has moved 2 and the left 0 has moved 3.
so that observer sees the same thing.(c) If the Universe had an edge, then there would have to be an outside for there to be an edge to, but by definition, the Universe is all that there is. If we flew off in one direction and ran into some sort of edge, that would just tell us that what we currently know is not all there is to the Universe. That's mostly semantics but gives you an idea of the problems with this sort of discussion.

We can see quite a long way, and no edge. Furthermore, the math that best describes what we can see is consistent with a Universe without an edge.
This is not the same as being without bounds though ... we expect the Universe to have a finite life for example - though language is difficult here since we only have words to talk about beginnings and endings within time, not of time. The usual analogy is that the surface of the Earth does not have an edge ... travel as far as you like and you won't fall off. It is still finite though.

Of course the Earth has an edge - you just have to travel up or down to find it. In other words, you need to travel in a direction orthogonal to the two surface dimensions to find the edge of the surface of the Earth. Continuing this analogy - to find the edge to the Universe, you have to find a fourth space-like dimension to travel in.

Aside:
These topics are quite well covered in introductory books to cosmology.
To cover them well would take much more than an online forum post ... so I'd suggest going and getting some.

Start here:
http://www.cfa.harvard.edu/seuforum/faq.htm
 
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  • #3
Simon Bridge said:
eg. here's a mini-universe at two times, you'll see it is expanding.
the -- represents empty space and the 0,o,x are places in it.
t1: 0---o---x---o---0
t2: 0----o----x----o----0
Yes but X seems to be stationary and not moving at all. Everything else is moving away from it. Also the galaxies that are closer to the outer limits of the universe must see something different? What about the outer most points in the universe, the points that are close to the actual big bang horizon. Galaxies formed here must see something different.
put the observer on the x to start with: in T=t2-t1, the 0 has moved away from the x by 2 units, while the o has moved 1.
so you see everyting moves away from the x with a speed that depends on the distance?
 
  • #4
I didn't see Simon Bridge's post when I was writing this. He may have covered all these points, or otherwise answered your question. I will post this anyway.
Flustered said:
...
a) Cosmologists say the universe started at a singularity, there for there is a point where the universe started to expand from,...

That is not what they say, if you listen carefully.

What they say is that the beautiful otherwise very successful theory of geometry on which cosmology is based BREAKS DOWN as you approach the start of expansion.

This is considered to be a sign that the theory needs to be improved or replaced by a more rugged durable one which will not break down at high density.

In math, when a man-made theory or model breaks down the breakdown is called a singularity. We do not think singularities exist in nature. They occur in math models of nature and normally are gotten rid of by improving the models. So this is being worked on in the case of cosmology. People are working on a new theory of geometry and how it interacts with matter.

But you could say (somewhat misleadingly) that because our current successful model of geometry, called GR, breaks down as you go back in time and approach start of expansion---that therefore, in our current model, "the universe starts with a singularity".

This gives laymen the wrong idea that a singularity is something real that was sitting at some point in space.

That is a totally wrong picture. What "the universe starts with a singularity" really means is that the current math model of the U expanding geometry works beautifully back as far as 13.7 billion years ago and then in conditions of extreme high temperature and density it blows up, so "to go back before that we need a better model."

The other way you can refine your picture is to reflect that a uniform pattern of expansion where all distances increase is not like ordinary motion because nobody gets anywhere by it. It is just a change in geometry (which GR says is "live" and interacts with matter). So relativity allows the distances between things to increase, if necessary at rates that are many times the speed of light. It's not ordinary motion that would be restricted by "special"relativity.
Two things that the universe thinks are both sitting still can have the distance between them be increasing. This is what happens when you have a dynamical theory of geometry like what Albert E. gave us in 1915.

Welcome. Have fun here :biggrin:
 
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  • #5
Flustered said:
Yes but X seems to be stationary and not moving at all.
Only from the POV of someone sitting on x.
Someone sitting on either of the o's would think their o is stationary and everyone is moving away from them. Don't believe me? redraw the pic with the x in any of the other positions.

Also the galaxies that are closer to the outer limits of the universe must see something different?
In my little pocket Universe yes - since I drew it with an edge that our Universe does not have ... that is a limitation of the analogy.
There are others; my pocket universe also only has one dimension, for instance, while space has 3.

I could have drawn a closed pocket universe easily enough by looping it back on itself. In that case, the circumference of the circle increases while the number of points on it stay the same. However, it is hard to draw a circle in text. Just imagine that the left and right-most 0 are actually the same place like 0 and 360 degrees are the same place on a protractor and see if your question still makes sence.

What about the outer most points in the universe, the points that are close to the actual big bang horizon. Galaxies formed here must see something different.
Anyone so far away from us would see their own big-bang horizon just as far away from them as ours is from us. The "horizon" is formed by the amount of time it took for light from there to get here. It is what was there billions of years ago - it looks quite different now. To anyone out there, we are sitting in the big-bang horizon.

Really read the links I gave you.
 
  • #6
refining my model for a closed-space 1+1 universe - no edges.
let c be our observer:
t1: 0--a--b--c--d--e--0
t2: 0---a---b---c---d---e---0
t3: 0----a----b----c----d----e----0

the clue to c that the motion of the other letters is due to an expansion in their space and not just ordinary motion is that the speed is proportional to the distance. How do the other letters know how far from c they are to regulate their speeds accordingly?

(It could be that it's because there's someone outside the Universe typing extra spaces into a computer somewhere ... but that amounts to the same thing: the Universe is expanding.)

now: let's see what this looks like from the POV of the observer at a:
t1: d--e--0--a--b--c--d
t2: d---e---0---a---b---c---d
t3: d----e----0----a----b----c----d

notice that the endpoints are now "d" that means I can still get to d by going right from c or left from e. I have rotated the Universe to put a in the middle. I can rotate the universe to put "a" anywhere in the diagram I like because it is circular. This also works if the universe is infinite.

The upshot is that all the observers will see themselves at the center of an expanding Universe.

If you extrapolate backwards, you'll find the time to the big bang in this universe would be 2 time intervals. If you set the time interval to, say, seconds, and two distance units are 1 light-second, then you can have fun working out what is seen by any observer at different times. Pick 0 for the observer, and give each letter an age from the big bang so you can record when 0 sees which letter at what age.
 
  • #7
Simon Bridge said:
refining my model for a closed-space 1+1 universe - no edges.
let c be our observer:
t1: 0--a--b--c--d--e--0
t2: 0---a---b---c---d---e---0
t3: 0----a----b----c----d----e----0

the clue to c that the motion of the other letters is due to an expansion in their space and not just ordinary motion is that the speed is proportional to the distance. How do the other letters know how far from c they are to regulate their speeds accordingly?

(It could be that it's because there's someone outside the Universe typing extra spaces into a computer somewhere ... but that amounts to the same thing: the Universe is expanding.)

now: let's see what this looks like from the POV of the observer at a:
t1: d--e--0--a--b--c--d
t2: d---e---0---a---b---c---d
t3: d----e----0----a----b----c----d

notice that the endpoints are now "d" that means I can still get to d by going right from c or left from e. I have rotated the Universe to put a in the middle. I can rotate the universe to put "a" anywhere in the diagram I like because it is circular. This also works if the universe is infinite.

The upshot is that all the observers will see themselves at the center of an expanding Universe.

If you extrapolate backwards, you'll find the time to the big bang in this universe would be 2 time intervals. If you set the time interval to, say, seconds, and two distance units are 1 light-second, then you can have fun working out what is seen by any observer at different times. Pick 0 for the observer, and give each letter an age from the big bang so you can record when 0 sees which letter at what age.


I have not had time to check out the links so please excuse my ignorance.

t1: 0--a--b--c--d--e--0
t2: 0---a---b---c---d---e---0
t3: 0----a----b----c----d----e----0

If we are POV C would b and d appear to be red shifting?
If so, would c appear to be red shifting to them?
In your model it appears that in each direction that the galaxies are moving away, the galaxies to the right are moving to the right and the ones to the left are moving left. In which direction is our galaxy moving? It appears to be staying still while everything expands around it, which is a contradiction because from POV b, c would appear to be moving away. I guess the hardest thing for me to wrap my mind around is, how can our galaxy appear to be still but from another galaxy it appears to be red shifting. If this is the case which way are we expanding, because the model shows galaxies expanding in 2D. If space is a sphere that wraps in in it's self. Then light from early galaxies we see could also be the same exact galaxy in a different direction,but this galaxy is more matured. Also the 3d infinity sphere doesn't explain observable and non observable universe.
 
  • #8
Flustered said:
I have not had time to check out the links so please excuse my ignorance.

t1: 0--a--b--c--d--e--0
t2: 0---a---b---c---d---e---0
t3: 0----a----b----c----d----e----0

If we are POV C would b and d appear to be red shifting?
yes
If so, would c appear to be red shifting to them?
yes
In your model it appears that in each direction that the galaxies are moving away, the galaxies to the right are moving to the right and the ones to the left are moving left. In which direction is our galaxy moving?
nowhere - that's where we are. the observer is always stationary from the POV of the observer.
It appears to be staying still while everything expands around it, which is a contradiction because from POV b, c would appear to be moving away.
but from the POV of b, b is going nowhere. From the POV of a different galactic cluster to our own, our galaxy is red-shifted.

I guess the hardest thing for me to wrap my mind around is, how can our galaxy appear to be still but from another galaxy it appears to be red shifting.
I know what you mean. But that is normal relativity, nothing to do with the redshift. Everybody is stationary from their own POV.

The reason you think you can tell if you are moving or not is because you look and see that the ground is moving - you realize that the ground is usually still and so deduce that you are moving instead. Stuff like that. In intergalactic space - what can stand-in for the ground?

If this is the case which way are we expanding, because the model shows galaxies expanding in 2D. If space is a sphere that wraps in in it's self. Then light from early galaxies we see could also be the same exact galaxy in a different direction, but this galaxy is more matured. Also the 3d infinity sphere doesn't explain observable and non observable universe.
Actually, my model was only 1D ... a closed universe could be a hypersphere - all 3 dimensions of space eventually wrap around on themselves.

If the universe were small enough we could confirm this directly since we could look out as see ourselves, much younger, some distance away. You get that in the little model too ... remember it is a circle?

---0---a---b---c---d---e---0---a'---b'---c'---d'---e'---0'---

... here I have primed the repeats because c' is just c only younger (provided this universe is not expanding: expansion changes things). if the gap "---" is a light-year then c would see c' (itself at that distance), but from 6 years ago.

If you imagine that this universe expands one "-" a year, then it started 3 years ago. That means anything more than 3ly away from c looks like the primal universe ... same with everyone else: they all see the primal universe 3ly away. Nobody gets to see the whole universe for a while. What's more, if this universe were bigger, then parts of it will be retreating from the observer faster than light - and so will never be seen. (This last one took me a while.)

If the stars only started shining 2 years ago, then nobody will even get to see to the start of Everything.

What with all this, if the curve of the universe is shallow enough then it will appear flat ... just like the Earth looks flat to people on it's surface. We have to detect the curvature of the Earth indirectly - or leave the surface. But we cannot leave the Universe so indirect is the best we got.

It takes practice to get your head around all this.

What some people suggest is thinking of the galaxies as currents in a pudding - the pudding starts out as a dense dough and expands as it is cooking. The expanding pudding is space.

The trouble with this is that the pudding, having edges, has a well-defined center to measure expansion from. But if you imagine an infinite pudding, then there is no place which can be called the "center" (and it is the same for the "closed" pudding - but harder to imagine) and you end up with something quite close to the Universe.
 
  • #9
Your post helped a lot, say there are only 3 galaxies in this universe.

A-B-C

If I'm understanding what you are saying, this would mean that.
A----B----C, galaxy C would than see A in the following A-----B-----C-----A
Galaxy C would see A in two directions? If this is true than you are proposing that space is a sphere. That wraps in on its self, so you should be able to travel in one direction long enough and end up at the same point eventually?

If my first paragraph was false with the diagram, than what would galaxy C see at this moment in time. A-----B-----C if C was to look ----> that direction, would they see the "edge" or would they see A galaxy again? If there were only 3 galaxies in the universe?
 
  • #10
Scientists believe that the universe is either open and infinite or closed but unbounded.

If the universe is infinite then there is no center or edge; it just goes on forever. Pretty self explanatory.

If the universe is closed but unbounded, that just means that if you travel in a particular direction long enough you will come back out through the other side. The universe loops back onto itself in all 3 directions so to speak. In either scenario there is no center.
 
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  • #11
@Flustered:
In that last picture yep - C would see (urk) an old A to the right and a young one to the left. If those were people's heads, then C would eventually see the back of his own head. Travel long enough in one direction you end up back where you started.

As it is we have not observed any of these repeated galaxies so the Universe is big enough that they must be on the other side of the observable limit however, we know that space-time can curve like that because we observe related effects from more local curvature. The effect is called gravitational lensing.

Note - if it takes T for light to go between 2 galaxies, then the light from each galaxy emmitted at the exact time that the universe had the configuration shown would arrive at C at different times in C's history. The light from the RHS of A will arrive at C 2T later, while the light from the LHS of A takes only T to get there. During that time, the universe will have expanded so the exact configuration that C can observe is not the actual distribution of mass at that time. Which can complicate things no end.

Your first picture is not much use, I'm afraid discussing it further will only confuse things more. These 1D models are limited enough as they are.

In practise, we do our calculations in space-time - which simplifies things, and extrapolate to the kinds of things we can measure in space at a particular time.
We are kinds hitting the edge of the kinds of things we can easily talk about without a specialized language. Beware.

Hopefully you are now more comfy with the idea that there is no center? To put it (philosophically) more precisely: we do not need to postulate a center to account for our observations, and Occam's Vorpal sword goes snickity snack.

Of course, we don't have to passively wait around for an observation that does require the postulate, we can actively go look for one by figuring out what having a center means and watching for the signs. Nobody has ever found the slightest sign there may be one, but it can be a fun exercise for a postgrad cosmology student.

@Flatland: - I'd like to direct your attention to the short answer to the same question in the link in post #2. Seems there is a possibility of "both". However, in terms of post #1, afaik nobody seriously thinks that the universe is finite and bounded.
 
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  • #12
Flatland said:
Scientists believe that the universe is either open and infinite or closed but unbounded.

If the universe is infinite then there is no center or edge; it just goes on forever. Pretty self explanatory.

Thats impossible it cannot go on forever, say someone could travel at 100 times the speed of light.. What if scenario, they blast off in one direction, eventually they would to come to a point where space has not yet expanded into. The edge.? Where is my logic wrong, I feel like this is common sense, but cosmologist feel different.

Flatland said:
If the universe is closed but unbounded, that just means that if you travel in a particular direction long enough you will come back out through the other side. The universe loops back onto itself in all 3 directions so to speak. In either scenario there is no center.

What would this shape look like?
 
  • #13
Flustered said:
Thats impossible it cannot go on forever, say someone could travel at 100 times the speed of light.. What if scenario, they blast off in one direction, eventually they would to come to a point where space has not yet expanded into. The edge.? Where is my logic wrong, I feel like this is common sense, but cosmologist feel different.
Remember this: "common sense" is what tells you the Earth is flat.
The place where you logic fails is in thinking that space expands into something. Same as before.

Space can be infinite and expanding ... it is the gaps between things that is getting bigger. When you go back in time the (infinite) Universe does not get smaller, the matter and energy in it gets denser. The maths still works out for infinite space - however, there is a tendency to favor finite models of the Universe.

An infinite version of those 1D model universes would just run off the edge of the screen in both directions and keep going on and on for ever.
In the past, more letters/galaxies could fit on the screen. In the simple expansion model I used, you'd still get a time when there was zero separation between letters/galaxies.

What would this shape look like?
Tha is a subject of continuing research and speculation. Pretty much every 4+D shape you can think of has been considered. The simplest would have spherical symmetry in 4D but that does not account for time being special. Most of the common ones give time it's own geometry while 3D space has spherical symmetry. Remember, we have to try and describe the shape of space-time from the inside - that requires a specialized language. What you'd intuitively think of as "shape" does not make sense in this context.

Hawking's work on this, for instance, focuses on the nature of time (as the "problem child" of the dimensions) so his models have 1D of space represented as a circular loop - just like my universe-ette above - and he puts time as perpendicular to that. Since the loop expands with positive time, and the expansion seems to be accelerating, this produces a trumpet shape on the page.

We don't know what will happen to the expansion in the future - maybe it will slow down and reverse? So these pictures tend to leave the open end of the trumpet open.
Going back in time, it would converge to a point ... which is the singularity that is viewed as a flaw in the model. That would be a boundary - we tend to like theories of time which are finite to the past, and boundless, for reasons that have already been gone into. Basically it neatly avoids hard problems. Hawking found a solution (actually a set of them) where, at a particular minimum circumference time bend around into a circle so the time-space surface forms a hemisphere. Problem solved.

This kinda means if it were possible to go back in time far enough, you'd end up going forward again on the opposite side of the universe.

Careful though: that is not the only geometry available. It is a simple one which shows what sort of thing is possible: like a proof of concept.
We like to use the simplest one we can get away with because of Occam's razor.

You are having a hard enough time with 1D and expansion: take it slow huh?
 
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  • #14
Simon Bridge said:
Remember this: "common sense" is what tells you the Earth is flat.

Disagree, why would people think the world is flat, but at the same time say the sun is orbiting around the earth? How can the sun orbit a flat piece of paper like the earth? It seems like a contradiction to me.


Simon Bridge said:
You are having a hard enough time with 1D and expansion: take it slow huh?

Trying to relate 1D expansion to a 4D universe expansion is difficult, if I had a smart board and a marker I could write out my thoughts more thoroughly.
 
  • #15
Flustered said:
Thats impossible it cannot go on forever, say someone could travel at 100 times the speed of light.. What if scenario, they blast off in one direction, eventually they would to come to a point where space has not yet expanded into. The edge.? Where is my logic wrong, I feel like this is common sense, but cosmologist feel different.

There wouldn't be a place "where space has not yet expanded into" if space was infinite. It just means that you can travel through space forever and never reach an edge or loop back around. Infinity can still expand.

Flustered said:
What would this shape look like?

No one truly knows.
 
  • #16
Flatland said:
There wouldn't be a place "where space has not yet expanded into" if space was infinite. It just means that you can travel through space forever and never reach an edge or loop back around. Infinity can still expand.
No one truly knows.

With the same logic infinity can shrink to 0, so infinity == 0.
 
  • #17
"Common sense is what tells you the World is flat."
-- Bertrand Russel [1]

Also see: Shadewald R. J. http://www.lhup.edu/~dsimanek/fe-scidi.htm

Disagree, why would people think the world is flat, but at the same time say the sun is orbiting around the earth? How can the sun orbit a flat piece of paper like the earth? It seems like a contradiction to me.
That's not "common sense" - you seem to be one of those (us) who are cursed with the knee-jerk reaction of actually thinking about statements you read and hear:) When people go through their normal lives, they do not even think to account for the curvature of the Earth ... that is what the statement means. That is what is "common" about common sense. It is quite uncommon for someone to wonder about the problems about this without prompting. These days we rely on education to do the prompting - which is why flat-earthers still exist.

Common sense shows you that you basically go down as much as you go up in your travels - ergo: flat World. The Sun crosses the sky from horizon to horizon - common sense says the sky is a big blue bowl upturned over us and the sun is a light that slides over it - why can't it go down to the horizon someplace past the seas? Maybe the flat Earth has an edge for the Sun to go past? Maybe is enters the surface of the World through a huge hole or cataract?

However - this is the sort [the questioning/skeptical sort] of thinking that leads to the Curved Universe theories that we have today - same sort of problems but on a very big scale.
voxilla said:
With the same logic infinity can shrink to 0, so infinity == 0.
Nope - that only follows if you think it is the universe expanding in size.
That only works for a finite universe - a particular total volume say. In an infinite universe has no sensible size and it's volume is always infinite ... so the compressed beginning is still an infinite universe with a much higher energy density because all the points are closer together.

You can almost get the idea by thinking in terms of a coordinate density - i an infinite expanding universe, the coordinate density decreases over time ... the number of discrete space-points in a unit volume decreases. Before you object: I said, "almost".

In an infinite universe it makes no sense to talk about expansion in terms of the size of the Universe ... it is the geometry that is expanding.

-------------------------

[1]...as quoted in: A History of Modern Western Philosophy [1945] - I'd like a better reference, anybody?
The problem with quotes on the internet is they are so unreliable. --- Abraham Lincoln
 
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  • #18
Simon Bridge said:
"Common sense is what tells you the World is flat."

Well, just for fun, no. Earth-bound perspective tells you that World is flat. Change perspective, and common sense works just fine.
 
  • #19
supermarina said:
Well, just for fun, no. Earth-bound perspective tells you that World is flat. Change perspective, and common sense works just fine.
That would be accurate - common sense is from the common perspective. Read the Flat Out Truth link for a very sad failure of common sense linked with the concept of finding the truth then believing it to the end.

IT's not just the Earth-bound perspective that does it though - you can figure out the Earth is not flat from Earth-bound observations - to the extent that no "educated person" seriously believed that the Earth was flat well before sputnik changed the perspective.
 
  • #20
Simon Bridge said:
That would be accurate - common sense is from the common perspective. Read the Flat Out Truth link for a very sad failure of common sense linked with the concept of finding the truth then believing it to the end.

I read it, and that is not the kind of common sense I was referring to. What will we believe in, if not in our ability to understand? Change of perspective is very powerful, not necessarily physical change, but rather mental. Nice posts in this thread, by the way.
 
  • #21
Ah well - epistomology.
I think Russell (it's a quote remember) was referring to the naive application of reason, or "intuition", rather than it's systematic and disciplined application. It is the latter we need in order to reliably advance our understanding. But this is not a philosophy thesis and Russell was being glib not rigorous. (His works are in the Gutenberg project btw).

Dragging this back to context: appealing to common sense notions about expansion as a guide to figuring out GR is probably not reliable.

Note to say our intuitions cannot be useful - just see how creepy the red room sequences in Twin Peaks are.
 
  • #22
Simon Bridge said:
Common sense shows you that you basically go down as much as you go up in your travels - ergo: flat World. The Sun crosses the sky from horizon to horizon - common sense says the sky is a big blue bowl upturned over us and the sun is a light that slides over it - why can't it go down to the horizon someplace past the seas? Maybe the flat Earth has an edge for the Sun to go past? Maybe is enters the surface of the World through a huge hole or cataract?

However - this is the sort [the questioning/skeptical sort] of thinking that leads to the Curved Universe theories that we have today - same sort of problems but on a very big scale.

If the sun entered the earth, and came out the other side. Would the sun actually be going around the earth?

Egyptians lined pyramids up with the cosmos, Columbus thought we would fall of the face of the earth... Disconnect.
 
  • #23
Flustered said:
Thats impossible it cannot go on forever, say someone could travel at 100 times the speed of light.. What if scenario, they blast off in one direction, eventually they would to come to a point where space has not yet expanded into. The edge.? Where is my logic wrong, I feel like this is common sense, but cosmologist feel different.

You would do well to study the math of infinity. You are trying to apply finite math to infinity and is just does not work. n x infinity = infinity, regardless of the value of n. It just isn't like "normal" math.
 
  • #24
==quote Flustered==
Thats impossible it cannot go on forever, say someone could travel at 100 times the speed of light.. What if scenario, they blast off in one direction, eventually they would to come to a point where space has not yet expanded into. The edge.? Where is my logic wrong, I feel like this is common sense, but cosmologist feel different.
==endquote==

The two most common models AFAIK are basically two cases of the standard LCDM (lambda cold dark matter picture).
1. infinite space case: U was infinite at start of expansion. distances have been expanding as per usual equation. U is of course still infinite. You can continue forever at 100 times speed of light.

2. positive curvature "hypersphere" case: U was finite volume at start. distances have been expanding as per usual equation. U is of course still finite volume. If you travel in same direction at 100 time speed of light you will get back here.

Probably, unless the thing is just too damn big so that even the slowly accelerating expansion that we now witness is enough to defeat you. But then by going faster you could still circumnavigate. Like 1000 times speed of light. We don't yet have a good estimate of how big it is (in the finite case) so I can't say just how fast you would have to go in order to circumnavigate.
 
  • #25
Flustered said:
If the sun entered the earth, and came out the other side. Would the sun actually be going around the earth?
Well I said "World" for a reason here - maybe the Earth is only part of the flat World, the Sun can go around the Earth part without going all the way around the whole World.

Fun, isn't it.
But off-topic.

I believe the original questions have been answered :)
 
  • #26
Infinity. If you can add something to it doesn't that mean what you had wasn't really infinite, just bloody huge? I general take an infinite universe, with no wrap around (like Notepad on a fresh install!), to contain everything and from which nothing could be removed or added at any point. Is this not the idea of infinite?
 
  • #27
salvestrom said:
Infinity. If you can add something to it doesn't that mean what you had wasn't really infinite, just bloody huge?

No, that is most emphatically NOT what it means.

I general take an infinite universe, with no wrap around (like Notepad on a fresh install!), to contain everything and from which nothing could be removed or added at any point. Is this not the idea of infinite?

No, it is not. It's really quite the opposite. Infintity is a thing to which you CAN add something without making have a different size than it had before. It just does not work like normal math.
 
  • #28
What @phinds said x2

eg. take two number lines A and B and stretch B by twice.
Is B now twice the length of A?
Nope - both infinity - even though we have a mapping where 1 in B maps to 2 in A and so on. So we've just expanded an infinite line to get another infinite line with half the coordinate density.

Start again, let's add 1 to the length of line A - we can't find the end of A to add one unit to ... so let's cut it at say the #1 position and shift the two bits apart to insert an extra 1unit length. Now it counts ... -2, -1, 0, x, 1, 2, 3, ... so we need to relabel all the points to the right so x becomes 1 and 1 becomes 2 and so on. Or we could just leave it so there is an unusual gap between 0 and 1 ... a local expansion. Either way the final length is still infinity.

We have just successfully added one to infinity and ended up with infinity.

"Infinity" the concept makes an interesting philosophical study too.
Is y=0.99999... the same as y=1?
 
  • #29
Simon Bridge said:
What @phinds said x2

eg. take two number lines A and B and stretch B by twice.
Is B now twice the length of A?
Nope - both infinity - even though we have a mapping where 1 in B maps to 2 in A and so on. So we've just expanded an infinite line to get another infinite line with half the coordinate density.

Start again, let's add 1 to the length of line A - we can't find the end of A to add one unit to ... so let's cut it at say the #1 position and shift the two bits apart to insert an extra 1unit length. Now it counts ... -2, -1, 0, x, 1, 2, 3, ... so we need to relabel all the points to the right so x becomes 1 and 1 becomes 2 and so on. Or we could just leave it so there is an unusual gap between 0 and 1 ... a local expansion. Either way the final length is still infinity.

We have just successfully added one to infinity and ended up with infinity.

"Infinity" the concept makes an interesting philosophical study too.
Is y=0.99999... the same as y=1?

This doesn't leave me with very much choice other than to side with Aristotle and take the finite, unbound view of our universe.

Stretching B to twice A's length requires A to have an end that can be surpased. Aside from this, performing the action on anything other than a finite line seems to serve no practical purpose in reality.

Your second example seems to tie in with concepts of the expansion of space. Although in that case the distances are always finite.

I devised a cunning pun. The infinite universe is not only boundless, but also pointless!
 
  • #30
salvestrom said:
This doesn't leave me with very much choice other than to side with Aristotle and take the finite, unbound view of our universe.
Good luck with that. It at least has the advantage that it MIGHT be right.

Stretching B to twice A's length requires A to have an end that can be surpased. Aside from this, performing the action on anything other than a finite line seems to serve no practical purpose in reality.
I see that you adamantly refuse to learn the maths of infinity. Good luck with that as well.
 
  • #31
phinds said:
Good luck with that. It at least has the advantage that it MIGHT be right.


I see that you adamantly refuse to learn the maths of infinity. Good luck with that as well.

Maths proved that 1=2. The argument against it is that the operation of dividing or multiplying anything by 0 is not a viable one. I see no difference with your example. You can suggest it as a concept but turning it into a reality is impossible. Both of your lines are polite insults. I could accuse you of refusing to accept the practicalities of reality.

For the life of me, I can't find the 1=2 article to use the word they used instead of 'viable'.

Anyway, final point. Doesn't physics strive to remove infinity from its equations whenever it pops up? I've heard it said it is a good indication you're done something wrong.

Just to stress, I'm fine with debating a concept. I just don't think inifinity actually exists anywhere in the realworld.
 
  • #32
I sypathize with infinity bashers. Scientists are working dilignently to do away with the infinity in the center of a black hole. Renormalization was developed to do away with the infinites that routinely arise in quantum calculations. Can we do away with the apparent infinity of the universe? It's not for lack of effort. We still search for tell tale signs of a wrap around effect. One of the first I recall was an article titled 'Circles in the Sky'. They didn't find any, but, we haven't stopped trying. They did manage, however, to constrain the minimum size of the universe [which turns out to be gimongous]. The effort is still ongoing. An infinite universe that is causally connected would invoke issues that are at least as mind bending as the idea of a finite, but, unbounded universe - like how can something spatially infinite be temporally finite?
 
  • #33
salvestrom said:
This doesn't leave me with very much choice other than to side with Aristotle and take the finite, unbound view of our universe.
You are in good company.

Everyone has their favorites, but we should bear in mind that there are other good ideas around too. The best we can do is to see if we can find an upper bound for the very-large-scale curvature of space-time. Ah - that reminds me ...
https://www.physicsforums.com/showthread.php?t=298279
... a thread on PF discussing an artistic representation of the Universe.
You'll like it - it shows my 1D loops expanding through the different stages in a simple-ish big-bang model.

Stretching B to twice A's length requires A to have an end that can be surpased.
But that's not what I did - I didn't change the length of A at all :) What I did was change it's coordinate density.

If each of the numbers on the line were masses, you'd be quite happy with halving the density of A wrt B ... but if you counted the masses, there would not only be an infinite amount in both but there is a 1-1 mapping from one set of masses to the other.

Infinite sets require a special language to cope with.
For instance, A and B have the same number of elements, so you'd think that A + B combined would have twice as many elements as A wouldn't you?

Aside from this, performing the action on anything other than a finite line seems to serve no practical purpose in reality.
And yet differential calculus and geometric sums do just that.
Your second example seems to tie in with concepts of the expansion of space. Although in that case the distances are always finite.
Both of them do - the first one expands space, the second adds an extra bit of space between two coordinates. The first one is a closer representation of expansion.

You'll probably be most comfy with the ideas of quantized space-time, which does away with infinities in every direction. I'd say this is good enough for now - it is a very big subject and we are in a small website. Have fun exploring.
 
  • #34
Well, you said stretch B twice. Not sure how else that can be taken. But on to way more interesting things...

Space!

I did realize that the first example is also a type of spatial expansion. The reason I didn't edit to say so was because that idea of space expansion was shot down in another thread of mine, and I got the distinct impression that expansion type 2 - where new space is created/added - was actually the accepted view.

The model you show does have inconsistancies that I've never really dwelled on. The galaxy end can, if you squint, be viewed as if the galaxies are attached to the cylinder, with the surface, the hoops, representing x in space while the horizontal lines are t. But it doesn't work all the way down the tube. But then, one picture is not a thing to base ones knowledge of the universe on. If it were, I'd draw a quilt, call it quantised 2D space and never come here again to see how real scientists are doing.

Oh, thanks for percivering. I'm stubborn as hell. Tauren.
 
  • #35
If the Universe did not expand of contract, the picture would be a cylinder - that is correct. If the expansion was a constant, it would be a cone ... providing the singularity at the point that we talked about getting rid of earlier.

To avoid the point, the geometry requires the time axis to curl around so the space-time picture resembles a hemisphere. In the picture, there are a few extra tweaks to account for quantum effects in the very early universe - the hemisphere looks like a nipple in the bit labelled "quantum fluctuations".

In the other direction, there is a trumpet-like flaring ... this is due to the currently observed acceleration in the expansion.
The artist has drawn that end open because any ideas about how the Universe ends up is pure speculation at this stage.

I have a post in that thread talking about the bits I see as misleading in that picture.
Anything we do like this can only be an analogy - and all analogies have limitations.
 

1. What is the Singularity?

The Singularity is a theoretical event in the future where artificial intelligence surpasses human intelligence, leading to rapid and unpredictable technological progress.

2. Can we reach Infinity?

Infinity is a concept that is often used in mathematics and philosophy, but it is not something that can be physically reached. It is a theoretical concept that represents something without an end or limit.

3. Is there an Edge to the universe?

The concept of an Edge to the universe is often misunderstood. The universe is constantly expanding, so there is no physical edge or boundary. However, the observable universe has a limit due to the speed of light and the age of the universe.

4. What is Expansion in the context of the universe?

Expansion refers to the continuous increase in the size and volume of the universe. This expansion is driven by dark energy, a mysterious force that is causing the universe to expand at an accelerating rate.

5. How will the Singularity and Expansion impact humanity?

The Singularity and Expansion have the potential to greatly impact humanity in both positive and negative ways. The rapid advancement of technology could lead to significant improvements in areas such as healthcare and transportation, but it could also bring about ethical and societal challenges. Additionally, the expansion of the universe may eventually lead to the end of human existence, but it is not expected to happen for billions of years.

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